Clayey soil will absorb more water than sandy soil. This is because clayey soil has smaller particles with more surface area, allowing it to retain water more effectively than sandy soil, which has larger particles with less surface area.
Clayey soil has smaller particle size and higher surface area, allowing it to hold more water through capillary action compared to sandy soil. The smaller gaps between clay particles also slow down water drainage, leading to more water being retained in clayey soil.
Clayey soil will allow less water to pass through compared to sandy soil because it has smaller particles and is more compact. This results in higher water retention in clayey soil and slower water infiltration compared to sandy soil.
Sandy soil is generally more susceptible to erosion than clayey soil. This is because sandy soil has larger particles and less cohesion between them, making it easier for water to wash away the soil particles. Clayey soil, with smaller particles that stick together more, is more resistant to erosion.
Sandy soil will allow more water to percolate compared to clayey soil. This is because sandy soil has larger particle sizes with more space between them, allowing water to flow through more easily. Clayey soil has smaller particle sizes with less space between them, leading to slower water percolation.
The percolation rate of clayey soil is generally slow due to its small particle size and high water retention capacity. This means that water moves slowly through clayey soil, which can lead to waterlogging and poor drainage in the soil profile. Improving soil structure through amendments like organic matter can help to increase percolation rates in clayey soils.
Clayey soil has smaller particle size and higher surface area, allowing it to hold more water through capillary action compared to sandy soil. The smaller gaps between clay particles also slow down water drainage, leading to more water being retained in clayey soil.
Clayey soil will allow less water to pass through compared to sandy soil because it has smaller particles and is more compact. This results in higher water retention in clayey soil and slower water infiltration compared to sandy soil.
Sandy soil is generally more susceptible to erosion than clayey soil. This is because sandy soil has larger particles and less cohesion between them, making it easier for water to wash away the soil particles. Clayey soil, with smaller particles that stick together more, is more resistant to erosion.
Sandy soil will allow more water to percolate compared to clayey soil. This is because sandy soil has larger particle sizes with more space between them, allowing water to flow through more easily. Clayey soil has smaller particle sizes with less space between them, leading to slower water percolation.
Clayey soil has very small particles that are closely packed together, which reduces the amount of pore space in the soil. This limited pore space restricts the movement of air and water in the soil, making it difficult for roots to access oxygen and absorb moisture effectively.
YES, Clayey soil is good for mangrove plants because of its minerals
clayey soil
Clayey soil.
Loamy soil, Sandy soil and Clayey soil
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This soil retains moisture and becomes very sticky when wet. Dry clayey soil is hard so the pots and and toys will not break. Hence clayey soil is used to make pots and toys
Clayey soil hold the most water of all, as sand and chalk. Loamy soil holds water but not as much as clayey.